Continuous high-power turbine fracturing equipment

ABSTRACT

The present invention discloses a continuous high-power turbine fracturing equipment, including a turbine engine, a reduction gearbox, a and a plunger pump, the turbine engine is arranged coaxially with the reduction gearbox, the reduction gearbox is connected to the plunger pump through the transmission shaft, the angle between a central line of the reduction gearbox and the transmission shaft is between 2° and 4°. The beneficial effects are as follows: chassis T1 materials are selected to provide a stable working platform for the equipment; the turbine engine is arranged coaxially with the reduction gearbox, the transmission shaft is disposed between the reduction gearbox and the plunger pump, and the angle between a central line of the reduction gearbox and the transmission shaft is between 2° and 4°, ensuring stable and efficient transmission of the turbine engine, thus reducing the incidence of failure; a lubrication system driven by an auxiliary power system ensures that the turbine engine, the reduction gearbox and the plunger pump all run under appropriate circumstances, and a dual lubrication system ensures that the plunger pump achieves a power operation continuously at 5000 HP or above; with all the above technical means, the requirements of continuous high-power operations for the fracturing equipment would finally be satisfied.

TECHNICAL FIELD

The present invention relates to the technical field of turbinefracturing, and specifically to a continuous high-power turbinefracturing equipment.

BACKGROUND

Traditional fracturing equipment used in oil and gas fields are mainlydiesel-driven fracturing equipment and electric-driven fracturingequipment. With the development of science and technology, turbineengines used in aviation have also been applied on fracturing equipment.As the current technologies on turbine engine applications andfracturing operation in oil and gas fields are not mature, it isdifficult to realize the stable output of turbine engines, and so farthe co-use of turbine engines and high-power plunger pumps is still ablank spot, resulting in low output power of the whole equipment, whichcannot meet the current requirements of continuously stable andhigh-power operations for well sites in oil and gas fields.

Therefore, a continuous high-power output turbine fracturing equipmentis urgently needed to satisfy the current demands of well sites in oiland gas fields.

SUMMARY

To overcome the deficiencies in the prior art, an objective of thepresent invention is to provide a continuous high-power turbinefracturing equipment, in which chassis T1 materials are selected toprovide a stable working platform for the equipment; a turbine engine isarranged coaxially with a reduction gearbox, a transmission shaft isdisposed between the reduction gearbox and the plunger pump, and theangle between an axis of the reduction gearbox and the transmissionshaft is between 2° and 4°, ensuring stable and efficient transmissionof the turbine engine, thus reducing the incidence of failure; alubrication system is driven by an auxiliary power system to ensure thatthe turbine engine, the reduction gearbox and the plunger pump all rununder appropriate circumstances, and a dual lubrication system ensuresthat the plunger pump achieves a power operation continuously at 5000 HPor above; with all the above technical means, the requirements ofcontinuous high-power operations for the fracturing equipment wouldfinally be satisfied.

The objective of the present invention is achieved by the followingtechnical measures: a continuous high-power turbine fracturingequipment, including a turbine engine, a reduction gearbox, atransmission shaft and a plunger pump, the turbine engine is arrangedcoaxially with the reduction gearbox, the reduction gearbox is connectedto the plunger pump through the transmission shaft, and the anglebetween an axis of the reduction gearbox and the transmission shaft isbetween 2° and 4°.

Further, the power of the plunger pump is at least 5000 HP.

Further, the plunger pump is a five-cylinder plunger pump.

Further, the continuous high-power turbine fracturing equipment includesa chassis, the turbine engine, the reduction gearbox, the transmissionshaft and the plunger pump are disposed on the chassis, and T1 highstrength structure steel is employed as the material of the chassis.

Further, the number of axles of the chassis is 3 or above.

Further, the continuous high-power turbine fracturing equipment includesan auxiliary power system and a lubrication system. The auxiliary powersystem provides power to the lubrication system, the lubrication systemincludes a lubrication unit for the turbine engine, a lubrication unitfor the reduction gearbox and a lubrication unit for the plunger pump.The lubrication unit for the plunger pump includes a high pressurelubrication unit and a low pressure lubrication unit.

Further, the high pressure lubrication unit includes a high pressuremotor, a high pressure pump and a high pressure oil line. The highpressure motor drives the high pressure pump, which pumps high pressurelubricating oil into the high pressure oil line.

Further, the high pressure oil line is used for lubricating connectingrod bearing bushes and crosshead bearing bushes in the plunger pump.

Further, the low pressure lubrication unit includes a low pressuremotor, a low pressure pump and a low pressure oil line. The low pressuremotor drives the low pressure pump, which pumps low pressure lubricatingoil into the low pressure oil line.

Further, the low pressure oil line is used for lubricating crankshaftbearings, crosshead sliding rails, bearings of the reduction gearbox andgears of the reduction gearbox in the plunger pump.

Further, at oil inlets of the low pressure oil line, independentlubricating oil lines are respectively arranged for bearings of thereduction gearbox and gears of the reduction gearbox.

Further, the auxiliary power system is a diesel engine, or a gasturbine, or an electromotor.

Further, the auxiliary power system is disposed on a gooseneck of thechassis.

Further, there is a torque limiter disposed on the reduction gearbox,ensuring the torque not too large to damage the turbine engine.

Further, the turbine engine employs 100% of natural gas or diesel asfuel.

Further, the continuous high-power turbine fracturing equipment includesan air intake system, which includes air intake filters and air intakepipings, the air intake filters are connected to the air inlet of theturbine engine through the air intake pipings.

Further, the air intake filters are in V-shaped structures.

Further, the continuous high-power turbine fracturing equipment includesan exhaust system, which is connected to the exhaust port of the turbineengine.

Further, there is a rain cap disposed at the exhaust end of the exhaustsystem, the rain cap is hinged to the exhaust end of the exhaust systemand an opening of the rain cap diverges from the turbine engine.

Further, after obtaining the power provided by an electric capstan, therain cap rotates along the exhaust end of the exhaust system with arotation angle between 0° and 90°.

Further, the rotation angle of the rain cap is 85°.

Compared with the prior art, the present invention has the followingbeneficial effects: providing a continuous high-power turbine fracturingequipment, in which chassis T1 materials are selected to provide astable working platform for the equipment; the turbine engine isarranged coaxially with the reduction gearbox, the transmission shaft isdisposed between the reduction gearbox and the plunger pump, and theangle between an axis of the reduction gearbox and the transmissionshaft is between 2° and 4°, ensuring stable and efficient transmissionof the turbine engine, thus reducing the incidence of failure; alubrication system is driven by an auxiliary power system to ensure thatthe turbine engine, the reduction gearbox and the plunger pump all rununder appropriate circumstances, and a dual lubrication system ensuresthat the plunger pump achieves a power operation continuously at 5000 HPor above; with all the above technical means, the requirements ofcontinuous high-power operations for the fracturing equipment wouldfinally be satisfied.

The present invention will be illustrated in detail below with referenceto accompanying drawings and the detailed description.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic structural diagram of a continuous high-powerturbine fracturing equipment.

FIG. 2 is a schematic structural diagram of an exhaust system.

FIG. 3 is a schematic diagram of lubrication in the plunger pump.

Wherein, 1. chassis, 2. auxiliary power system, 3. the first hydraulicpump, 4. exhaust system, 5. air intake system, 6. turbine engine, 7.reduction gearbox, 8. transmission shaft, 9. plunger pump, 10. airintake filters, 11. rain cap, 12. electric capstan, 13. connecting rodbearing bushes, 14. crosshead bearing bushes, 15. crankshaft bearings,16. crosshead upper sliding rails, 17. crosshead lower sliding rails,18. reduction gearbox gear pair, 19. bearing of reduction gearbox, 20.high pressure oil line, 21. low pressure oil line, 22. torque limiter,23. high pressure pump, 24. high pressure motor, 25. low pressure pump,and 26. low pressure motor.

DESCRIPTION OF THE EMBODIMENTS

As shown in FIGS. 1 to 3, a continuous high-power turbine fracturingequipment, including a turbine engine 6, a reduction gearbox 7, atransmission shaft 8 and a plunger pump 9, the turbine engine 6 isarranged coaxially with the reduction gearbox 7, the reduction gearbox 7is connected to the plunger pump 9 through the transmission shaft 8, andthe angle between an axis of the reduction gearbox and the transmissionshaft 8 is between 2° and 4°, ensuring stable and efficient transmissionof the turbine engine 6, thus reducing the incidence of failure.

The power of the plunger pump 9 is 5000 HP or above. The plunger pump 9is a five-cylinder plunger pump. The output of the high-power plungerpump 9 provides basic conditions for the continuous high-power turbinefracturing equipment.

The continuous high-power turbine fracturing equipment includes achassis 1, the turbine engine 6, the reduction gearbox 7, thetransmission shaft 8 and the plunger pump 9 are disposed on the chassis1. T1 high strength structure steel is employed as the material of thechassis 1, ensuring the stability of the chassis 1, providing a reliableworking platform for the stable operations of the turbine engine 6 andthe high-power plunger pump 9.

The number of axles of the chassis 1 is 3 or above, ensuring sufficientsupporting capacity.

The continuous high-power turbine fracturing equipment includes anauxiliary power system 2 and a lubrication system, the auxiliary powersystem 2 provides power to the lubrication system. The lubricationsystem includes three lubrication units, which are the lubrication unitfor the turbine engine, the lubrication unit for the reduction gearboxand the lubrication unit for the plunger pump, respectively. Thelubrication unit for the turbine engine is used for lubricating theturbine engine 6, the lubrication unit for the reduction gearbox is usedfor lubricating the reduction gearbox 7, and the lubrication unit forthe plunger pump includes a high pressure lubrication unit and a lowpressure lubrication unit. The function of the lubrication system is tolubricate and cool the turbine engine 6, the reduction gearbox 7, andthe plunger pump 9, thus ensuring their stable operations. Thelubrication system includes components such as a cooler, a firsthydraulic pump 3, a pressure gage, a safety valve, and so on. The coolercools the lubricating oil, ensuring the oil entering each lubricationunit at normal temperature to provide sufficient lubricating properties.The first hydraulic pump 3 provides power to each lubrication unit. Thepressure gage is used to monitor the pressure of the lubricating oil inthe whole lubrication system. The safety valve ensures stable operationsof the lubrication system.

The high pressure lubrication unit includes a high pressure motor, ahigh pressure pump and a high pressure oil line 20. The high pressuremotor drives the high pressure pump, which pumps high pressurelubricating oil into the high pressure oil line 20. The high pressureoil line 20 is used for lubricating connecting rod bearing bushes 13 andcrosshead bearing bushes 14 in the plunger pump 9. The low pressurelubrication unit includes a low pressure motor, a low pressure pump anda low pressure oil line 21. The low pressure motor drives the lowpressure pump, which pumps low pressure lubricating oil into the lowpressure oil line 21. The low pressure oil line 21 is used forlubricating crankshaft bearings 15, crosshead sliding rails, bearings 19of the reduction gearbox and gears 18 of the reduction gearbox in theplunger pump 9. The crosshead sliding rails include crosshead uppersliding rails 16 and crosshead lower sliding rails 17. By providing oilfor lubrication with the dual lubricating oil line, differentlubrication demands at each lubricating point in the plunger pump 9would be satisfied; two oil pumps (a high pressure pump and a lowpressure pump) are employed to supply oil so that the oil supply of eachoil line could be better guaranteed, thus better distributing thelubricating oil, and avoiding problems of uneven distribution oflubricating oil caused by excessive lubrication branches andinsufficient amount of lubricating oil at each lubricating point, thusenhancing the utilization of lubricating oil, reducing abnormalities,and better assisting the continuous stable operations of the high-powerplunger pump 9. For the connecting rod bearing bushes 13 and thecrosshead bearing bushes 14, the fit clearance is small, the carriedload is high, the contact area is large, and the requirements onlubrication are high. However, for the crankshaft bearings 15, thecrosshead sliding rails, bearings 19 of the reduction gearbox and gears18 of the reduction gearbox, by contrast, the requirements onlubrication are low.

At an oil inlet of the low pressure oil line 21, independent lubricatingoil lines are respectively arranged for bearings 19 of the reductiongearbox and gears 18 of the reduction gearbox. The rotation rates of thebearings 19 of the reduction gearbox and the gears 18 of the reductiongearbox are high, each of which is supplied with oil independently,which can guarantee sufficient lubricating oil for effectivelyestablishing oil films, rapidly taking away the heat resulting fromfriction, and improving the life time.

There is a filter, an overflow valve and the like disposed on therespective oil supply line of the high pressure oil line 20 and the lowpressure oil line 21. The rated lubricating oil pressure of the highpressure oil line 20 is 200-350 PSI. The rated lubricating oil pressureof the low pressure oil line 21 is 60-150 PSI.

The auxiliary power system 2 is a diesel engine, or a gas turbine, or anelectromotor.

The auxiliary power system 2 is disposed on a gooseneck of the chassis1, optimizing the configuration form of each component of the equipmenton the chassis 1.

There is a torque limiter disposed on the reduction gearbox 7, ensuringthe torque not too large to damage the turbine engine 6.

The turbine engine 6 employs 100% of natural gas or diesel as fuel.

The continuous high-power turbine fracturing equipment includes an airintake system 5, which includes air intake filters 10 and air intakepipings, the air intake filters 10 are connected to the air inlet of theturbine engine 6 through the air intake pipings. The air intake system 5is integrated on the same chassis 1, increasing the ease of use of thecontinuous high-power turbine fracturing equipment, reducing thetransportation cost, without the need of field connection and assembly.

A chamber is disposed outside the turbine engine 6, the air intakefilters 10 are disposed on the chamber, and the air intake filters 10are in V-shaped structures, which means that the cross sections of theair intake filters 10 are in V-shapes, which are different from theexisting planar structures in larger contact area, thus increasing theair intake area, decreasing the flow rate of the air inflow, extendingthe life time of the air intake filters 10, better matching the desiredair amount of the turbine engine 6, and promoting the stable output ofthe turbine engine 6.

The continuous high-power turbine fracturing equipment includes anexhaust system 4, which is connected to the exhaust port of the turbineengine 6. The exhaust system 4 is integrated on the same chassis 1,increasing the ease of use of the continuous high-power turbinefracturing equipment, reducing the transportation cost, without the needof field connection and assembly.

The exhaust end of the exhaust system 4 is provided with a rain cap 11,the rain cap is hinged to the exhaust end of the exhaust system 4 andthe opening of the rain cap diverges from the turbine engine 6. Theexhaust end of the exhaust system 4 is in a type of opening, if itrains, the rainwater would accumulate in the exhaust system 4, moreseriously flow backward into and damage the turbine engine 6. Theaddition of rain cap 11 can effectively avoid this. Moreover, theopening of rain cap 11 diverges from the turbine engine 6, thuspreventing the discharged exhaust from being inhaled by the air intakesystem 5 of the turbine engine 6.

After obtaining the power provided by an electric capstan 12, the raincap 11 rotates along the exhaust end of the exhaust system 4 with arotation angle between 0° and 90°. The rotation angle of the rain cap 11is 85°. The rain cap 11 can be completely closed in non-working state oron rainy days, that is 0° status; and can be opened in working state,preferably open up to 85°, ensuring that the rain cap 11 can be openedand closed smoothly by the electric capstan 12.

It will be appreciated to persons skilled in the art that the presentinvention is not limited to the foregoing embodiments, which togetherwith the context described in the specification are only used toillustrate the principle of the present invention. Various changes andimprovements may be made to the present invention without departing fromthe spirit and scope of the present invention. All these changes andimprovements shall fall within the protection scope of the presentinvention. The protection scope of the present invention is defined bythe appended claims and equivalents thereof.

What is claimed is:
 1. A continuous high-power turbine fracturingequipment, comprising a turbine engine, a reduction gearbox, atransmission shaft and a plunger pump, the turbine engine is arrangedcoaxially with the reduction gearbox, the reduction gearbox is connectedto the plunger pump through the transmission shaft, and; and wherein thecontinuous high-power turbine fracturing equipment comprises anauxiliary power system and a lubrication system, the auxiliary powersystem provides power to the lubrication system, the lubrication systemcomprises a lubrication unit for the turbine engine, a lubrication unitfor the reduction gearbox and a lubrication unit for the plunger pump,the lubrication unit for the plunger pump comprises a high pressurelubrication unit and a low pressure lubrication unit; and wherein thelow pressure lubrication unit comprises a low pressure motor, a lowpressure pump and a low pressure oil line, the low pressure motor drivesthe low pressure pump, which pumps low pressure lubricating oil into thelow pressure oil line; and wherein the low pressure oil line is used forlubricating crankshaft bearings, crosshead sliding rails, bearings ofthe reduction gearbox and gears of the reduction gearbox in the plungerpump; and wherein at an oil inlet of the low pressure oil line,independent lubricating oil lines are respectively arranged for thebearings of the reduction gearbox and the gears of the reductiongearbox.
 2. The continuous high-power turbine fracturing equipmentaccording to claim 1, wherein the auxiliary power system is a dieselengine, or a gas turbine, or an electromotor.
 3. The continuoushigh-power turbine fracturing equipment according to claim 1, whereinthe auxiliary power system is disposed on a gooseneck of the chassis. 4.The continuous high-power turbine fracturing equipment according toclaim 1, wherein the turbine engine employs 100% of natural gas ordiesel as fuel.
 5. The continuous high-power turbine fracturingequipment according to claim 1, wherein the continuous high-powerturbine fracturing equipment comprises a chassis, the turbine engine,the reduction gearbox, the transmission shaft and the plunger pump aredisposed on the chassis, and T1 high strength structure steel isemployed as the material of the chassis.
 6. The continuous high-powerturbine fracturing equipment according to claim 5, wherein the number ofaxles of the chassis is 3 or above.
 7. The continuous high-power turbinefracturing equipment according to claim 1, wherein the high pressurelubrication unit comprises a high pressure motor, a high pressure pumpand a high pressure oil line, the high pressure motor drives the highpressure pump, which pumps high pressure lubricating oil into the highpressure oil line.
 8. The continuous high-power turbine fracturingequipment according to claim 7, wherein the high pressure oil line isused for lubricating connecting rod bearing bushes and crosshead bearingbushes in the plunger pump.
 9. The continuous high-power turbinefracturing equipment according to claim 1, wherein the power of theplunger pump is 5000 HP.
 10. The continuous high-power turbinefracturing equipment according to claim 9, wherein the plunger pump is afive-cylinder plunger pump.
 11. The continuous high-power turbinefracturing equipment according to claim 1, wherein the continuoushigh-power turbine fracturing equipment comprises an air intake system,which comprises air intake filters and air intake pipes, the air intakefilters are connected to air inlets of the turbine engine through theair intake pipes.
 12. The continuous high-power turbine fracturingequipment according to claim 11, wherein the air intake filters are inV-shaped structures.
 13. The continuous high-power turbine fracturingequipment according to claim 1, wherein the continuous high-powerturbine fracturing equipment comprises an exhaust system, which isconnected to an exhaust port of the turbine engine; and wherein anexhaust end of the exhaust system is provided with a rain cap, the raincap is hinged to the exhaust end of the exhaust system and an opening ofthe rain cap diverges from the turbine engine; and after obtaining thepower provided by an electric capstan, the rain cap rotates along theexhaust end of the exhaust system with a rotation angle between 0° and90°.
 14. The continuous high-power turbine fracturing equipmentaccording to claim 13, wherein the rotation angle is 85°.